/*
The contents of this file are subject to the Mozilla Public License Version 1.1
(the "License"); you may not use this file except in compliance with the License.
You may obtain a copy of the License at http://www.mozilla.org/MPL/

Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the
specific language governing rights and limitations under the License.

The Original Code is ______________________________________.

The Initial Developer of the Original Code is ________________________.
Portions created by ______________________ are Copyright (C) ______ _______________________.
All Rights Reserved.

Contributor(s): ______________________________________.

Alternatively, the contents of this file may be used under the terms of the eCos GPL license
(the  [eCos GPL] License), in which case the provisions of [eCos GPL] License are applicable
instead of those above. If you wish to allow use of your version of this file only under the
terms of the [eCos GPL] License and not to allow others to use your version of this file under
the MPL, indicate your decision by deleting  the provisions above and replace
them with the notice and other provisions required by the [eCos GPL] License.
If you do not delete the provisions above, a recipient may use your version of this file under
either the MPL or the [eCos GPL] License."
*/


/*****************************************************************************/
/* Don't change anything that follows unless you know what you're doing.     */
/*****************************************************************************/

/*
 * Configuration for the scaling power table.  Ignoring denormals, you
 * should have 2**EXP_TABLE_SIZE >= LDBL_MAX_EXP >= 2**(EXP_TABLE_SIZE-1).
 * The minimum for standard C is 6.  For IEEE 8bit doubles, 9 suffices.
 * For long doubles on i386, use 13.
 */
#define EXP_TABLE_SIZE       13

/*
 * Set this to the maximum number of digits you want converted.
 * Conversion is done in blocks of DIGITS_PER_BLOCK (9 by default) digits.
 * (20) 17 digits suffices to uniquely determine a (long) double on i386.
 */
#define MAX_DIGITS          20

/*
 * Set this to the smallest integer type capable of storing a pointer.
 */
#define INT_OR_PTR int

/*
 * This is really only used to check for infinities.  The macro produces
 * smaller code for i386 and, since this is tested before any floating point
 * calculations, it doesn't appear to suffer from the excess precision problem
 * caused by the FPU that strtod had.  If it causes problems, call the function
 * and compile zoicheck.c with -ffloat-store.
 */
#define _zero_or_inf_check(x) ( x == (x/4) )

/*
 * Fairly portable nan check.  Bitwise for i386 generated larger code.
 * If you have a better version, comment this out.
 */
#define isnan(x) (x != x)

/*****************************************************************************/
/* Don't change anything that follows peroid!!!  ;-)                         */
/*****************************************************************************/

//place it before stdio.h to define __PTRDIFF_TYPE__
#include "lib/libc/stdint.h"
#include "lib/libc/stdio/stdio.h"
//#include <string.h>
#if !defined(GNU_GCC)
   #include <assert.h>
#else
   #define  assert(__cond__)
#endif
//#include <float.h>

//extern int fnprintf(FILE * fp, size_t size, const char *fmt, ...);

/* from printf.c -- should really be in an internal header file */
enum {
   FLAG_PLUS = 0,
   FLAG_MINUS_LJUSTIFY,
   FLAG_HASH,
   FLAG_0_PAD,
   FLAG_SPACE,
};

/*****************************************************************************/

/*
 * Set things up for the scaling power table.
 */

#if EXP_TABLE_SIZE < 6
   #error EXP_TABLE_SIZE should be at least 6 to comply with standards
#endif

#define EXP_TABLE_MAX      (1U<<(EXP_TABLE_SIZE-1))

/*
 * Only bother checking if this is too small.
 */

#if LDBL_MAX_10_EXP/2 > EXP_TABLE_MAX
   #error larger EXP_TABLE_SIZE needed
#endif

/*
 * With 32 bit ints, we can get 9 digits per block.
 */
#define DIGITS_PER_BLOCK     9

#if (INT_MAX >> 30)
   #define DIGIT_BLOCK_TYPE     int
   #define DB_FMT               "%.*d"
#elif (LONG_MAX >> 30)
   #define DIGIT_BLOCK_TYPE     long
   #define DB_FMT               "%.*ld"
#else
   #error need at least 32 bit longs
#endif

/* Are there actually any machines where this might fail? */
#if 'A' > 'a'
   #error ordering assumption violated : 'A' > 'a'
#endif

/* Maximum number of calls to fnprintf to output double. */
#define MAX_CALLS 8

/*****************************************************************************/

#define NUM_DIGIT_BLOCKS   ((MAX_DIGITS+DIGITS_PER_BLOCK-1)/DIGITS_PER_BLOCK)

/* extra space for '-', '.', 'e+###', and nul */
#define BUF_SIZE  ( 3 + NUM_DIGIT_BLOCKS * DIGITS_PER_BLOCK )
/*****************************************************************************/

static const char *fmts[] = {
   "%0*d", "%.*s", ".", "inf", "INF", "nan", "NAN", "%*s"
};

/*****************************************************************************/

int __dtostr(FILE * fp, size_t size, long double x,
             char flag[], int width, int preci, char mode)
{
   long double exp_table[EXP_TABLE_SIZE];
   long double p10;
   DIGIT_BLOCK_TYPE digit_block;      /* int of at least 32 bits */
   int i, j;
   int round, o_exp;
   int exp, exp_neg;
   char *s;
   char *e;
   char buf[BUF_SIZE];
   INT_OR_PTR pc_fwi[2*MAX_CALLS];
   INT_OR_PTR *ppc;
   char exp_buf[8];
   char drvr[8];
   char *pdrvr;
   int npc;
   int cnt;
   char sign_str[2];
   char o_mode;

   /* check that INT_OR_PTR is sufficiently large */
   assert( sizeof(INT_OR_PTR) == sizeof(char *) );

   *sign_str = flag[FLAG_PLUS];
   *(sign_str+1) = 0;
   if (isnan(x)) {                              /* nan check */
      pdrvr = drvr + 1;
      *pdrvr++ = 5 + (mode < 'a');
      pc_fwi[2] = 3;
      flag[FLAG_0_PAD] = 0;
      goto EXIT_SPECIAL;
   }

   if (x == 0) {                                /* handle 0 now to avoid false positive */
      exp = -1;
      goto GENERATE_DIGITS;
   }

   if (x < 0) {                                 /* convert negatives to positives */
      *sign_str = '-';
      x = -x;
   }

   if (_zero_or_inf_check(x)) {      /* must be inf since zero handled above */
      pdrvr = drvr + 1;
      *pdrvr++ = 3 +  + (mode < 'a');
      pc_fwi[2] = 3;
      flag[FLAG_0_PAD] = 0;
      goto EXIT_SPECIAL;
   }

   /* need to build the scaling table */
   for (i = 0, p10 = 10; i < EXP_TABLE_SIZE; i++) {
      exp_table[i] = p10;
      p10 *= p10;
   }

   exp_neg = 0;
   if (x < 1e8) {                               /* do we need to scale up or down? */
      exp_neg = 1;
   }

   exp = DIGITS_PER_BLOCK - 1;

   i = EXP_TABLE_SIZE;
   j = EXP_TABLE_MAX;
   while ( i-- ) {                              /* scale x such that 1e8 <= x < 1e9 */
      if (exp_neg) {
         if (x * exp_table[i] < 1e9) {
            x *= exp_table[i];
            exp -= j;
         }
      } else {
         if (x / exp_table[i] >= 1e8) {
            x /= exp_table[i];
            exp += j;
         }
      }
      j >>= 1;
   }
   if (x >= 1e9) {                              /* handle bad rounding case */
      x /= 10;
      ++exp;
   }
   assert(x < 1e9);

GENERATE_DIGITS:
   s = buf + 2;      /* leave space for '\0' and '0' */

   for (i = 0; i < NUM_DIGIT_BLOCKS; ++i ) {
      digit_block = (DIGIT_BLOCK_TYPE) x;
      x = (x - digit_block) * 1e9;
      s += sprintf(s, DB_FMT, DIGITS_PER_BLOCK, digit_block);
   }

   /*************************************************************************/

   *exp_buf = 'e';
   if (mode < 'a') {
      *exp_buf = 'E';
      mode += ('a' - 'A');
   }

   o_mode = mode;

   round = preci;

   if ((mode == 'g') && (round > 0)) {
      --round;
   }

   if (mode == 'f') {
      round += exp;
   }

   s = buf;
   *s++ = 0;                                            /* terminator for rounding and 0-triming */
   *s = '0';                                            /* space to round */

   i = 0;
   e = s + MAX_DIGITS + 1;
   if (round < MAX_DIGITS) {
      e = s + round + 2;
      if (*e >= '5') {
         i = 1;
      }
   }

   do {                                                 /* handle rounding and trim trailing 0s */
      *--e += i;                                        /* add the carry */
   } while ((*e == '0') || (*e > '9'));

   o_exp = exp;
   if (e <= s) {                                /* we carried into extra digit */
      ++o_exp;
      e = s;                                            /* needed if all 0s */
   } else {
      ++s;
   }
   *++e = 0;                                            /* ending nul char */

   if ((mode == 'g') && ((o_exp >= -4) && (o_exp <= round))) {
      mode = 'f';
   }

   exp = o_exp;
   if (mode != 'f') {
      o_exp = 0;
   }

   if (o_exp < 0) {
      *--s = '0';                                       /* fake the first digit */
   }

   pdrvr = drvr+1;
   ppc = pc_fwi+2;

   *pdrvr++ = 0;
   *ppc++ = 1;
   *ppc++ = (INT_OR_PTR)(*s++ - '0');

   i = e - s;                                           /* total digits */
   if (o_exp >= 0) {
      if (o_exp >= i) {                         /* all digit(s) left of decimal */
         *pdrvr++ = 1;
         *ppc++ = i;
         *ppc++ = (INT_OR_PTR)(s);
         o_exp -= i;
         i = 0;
         if (o_exp>0) {                         /* have 0s left of decimal */
            *pdrvr++ = 0;
            *ppc++ = o_exp;
            *ppc++ = 0;
         }
      } else if (o_exp > 0) {           /* decimal between digits */
         *pdrvr++ = 1;
         *ppc++ = o_exp;
         *ppc++ = (INT_OR_PTR)(s);
         s += o_exp;
         i -= o_exp;
      }
      o_exp = -1;
   }

   if (flag[FLAG_HASH] || (i) || ((o_mode != 'g') && (preci > 0))) {
      *pdrvr++ = 2;                             /* need decimal */
      *ppc++ = 1;                                       /* needed for width calc */
      ppc++;
   }

   if (++o_exp < 0) {                           /* have 0s right of decimal */
      *pdrvr++ = 0;
      *ppc++ = -o_exp;
      *ppc++ = 0;
   }
   if (i) {                                             /* have digit(s) right of decimal */
      *pdrvr++ = 1;
      *ppc++ = i;
      *ppc++ = (INT_OR_PTR)(s);
   }

   if (o_mode != 'g') {
      i -= o_exp;
      if (i < preci) {                          /* have 0s right of digits */
         i = preci - i;
         *pdrvr++ = 0;
         *ppc++ = i;
         *ppc++ = 0;
      }
   }

   /* build exponent string */
   if (mode != 'f') {
      *pdrvr++ = 1;
      *ppc++ = sprintf(exp_buf,"%c%+.2d", *exp_buf, exp);
      *ppc++ = (INT_OR_PTR) exp_buf;
   }

EXIT_SPECIAL:
   npc = pdrvr - drvr;
   ppc = pc_fwi + 2;
   for (i=1; i< npc; i++) {
      width -= *(ppc++);
      ppc++;
   }
   i = 0;
   if (*sign_str) {
      i = 1;
   }
   width -= i;
   if (width <= 0) {
      width = 0;
   } else {
      if (flag[FLAG_MINUS_LJUSTIFY]) {           /* padding on right */
         ++npc;
         *pdrvr++ = 7;
         *ppc = width;
         *++ppc = (INT_OR_PTR)("");
         width = 0;
      } else if (flag[FLAG_0_PAD] == '0') {           /* 0 padding */
         pc_fwi[2] += width;
         width = 0;
      }
   }
   *drvr = 7;
   ppc = pc_fwi;
   *ppc++ = width + i;
   *ppc = (INT_OR_PTR) sign_str;

   pdrvr = drvr;
   ppc = pc_fwi;
   cnt = 0;
   for (i=0; i<npc; i++) {
#if 1
      fnprintf(fp, size, fmts[(int)(*pdrvr++)], (INT_OR_PTR)(*(ppc)),
               (INT_OR_PTR)(*(ppc+1)));
#else
      j = fnprintf(fp, size, fmts[(int)(*pdrvr++)], (INT_OR_PTR)(*(ppc)),
                   (INT_OR_PTR)(*(ppc+1)));
      assert(j == *ppc);
#endif
      if (size > *ppc) {
         size -= *ppc;
      }
      cnt += *ppc;                              /* to avoid problems if j == -1 */
      ppc += 2;
   }

   return cnt;
}
